Skip to main content

A path analysis study of retention of healthcare professionals in urban India using health information technology

Abstract

Background

Healthcare information technology (HIT) applications are being ubiquitously adopted globally and have been indicated to have effects on certain dimensions of recruitment and retention of healthcare professionals. Retention of healthcare professionals is affected by their job satisfaction (JS), commitment to the organization and intention to stay (ITS) that are interlinked with each other and influenced by many factors related to job, personal, organization, etc. The objectives of the current study were to determine if HIT was one among the factors and, if so, propose a probable retention model that incorporates implementation and use of HIT as a strategy.

Methods

This was a cross-sectional survey study covering 20 hospitals from urban areas of India. The sample (n = 586) consisted of doctors, nurses, paramedics and hospital administrators. Data was collected through a structured questionnaire. Factors affecting job satisfaction were determined. Technology acceptance by the healthcare professionals was also determined. Interactions between the factors were predicted using a path analysis model.

Results

The overall satisfaction rate of the respondents was 51 %. Based on factor analysis method, 10 factors were identified for JS and 9 factors for ITS. Availability and use of information technology was one factor that affected JS. The need for implementing technology influenced ITS through work environment and career growth. Also, the study indicated that nearly 70 % of the respondents had awareness of HIT, but only 40 % used them. The importance of providing training for HIT applications was stressed by many respondents.

Conclusion

The results are in agreement with literature studies exploring job satisfaction and retention among healthcare professionals. Our study documented a relatively medium level of job satisfaction among the healthcare professionals in the urban area. Information technology was found to be one among the factors that can plausibly influence their job satisfaction and intention to stay. Based on the results of the study, a retention strategy has been suggested that utilizes implementation of HIT and provision of training to influence the retention of healthcare workers.

Peer Review reports

Background

The healthcare sector, especially the hospital industry, is a service-intensive industry that relies heavily on advanced medical technology and availability of trained healthcare professionals for delivering quality healthcare services [13]. Among the challenges facing the industry is the high turnover (attrition) of healthcare professionals leading to a global shortage of nearly 7.2 million healthcare workers that is expected to increase to 12.9 million by 2035 [4]. The shortage of skilled workers in hospitals has led to sub-optimal levels of patient care, increased patient mortality, increased medical errors, etc. [5, 6]. Better remuneration, ideal working conditions abroad, high-stress levels, increased workload and reduced job satisfaction (JS) are some of the significant factors identified causing turnover in healthcare professionals [7, 8]. Consequently, this has reportedly led to the exodus of healthcare workers from developing countries to places where their expectations are met. Recruiting and retaining these knowledge professionals is fast becoming a point of concern for all hospitals.

India is one of the fastest growing economies in the world in terms of GDP and is expected to be the third largest economy by 2050 [9]. With the Indian healthcare industry experiencing phenomenal growth, hospitals are moving towards excellence rather than survival and are gearing up to fulfil the gaps in three key areas of importance, that is, people, process and technology. Still, there are many challenges to be overcome, in terms of major out-of-pocket healthcare expenditure, changing lifestyles, varied demographics, infrastructure shortages and widespread inaccessible geographical locations. A major roadblock facing the industry is the shortage of healthcare professionals blown to epidemic proportions, rampant among both public and private sectors. India’s ratio of 0.7 doctors and 1.5 nurses per 1000 people is dramatically lower than the WHO average of 2.5 doctors and 3.0 nurses per 1000 people [10]. Furthermore, there is an acute shortage of paramedical and administrative professionals. The situation is further aggravated by the concentration of medical professionals in urban areas that have only 30 % of the country’s population in comparison to rural areas. There is an additional need of 1.54 million doctors and 2.4 million nurses to match the global average [11]. To deal with these constraints, hospitals have been adopting retention strategies like offering higher pay, job autonomy, higher educational plans, fellowships abroad, work recognition and inclusion of family in social/recreational activities [1215]. There are no particular strategy/strategies that have been found to be highly successful so far.

In the current global healthcare scenario, information and communication technology (ICT) in the form of healthcare information technology (HIT) applications are perceived as a transformative force and widely adopted for improvement of healthcare service delivery and hospital-wide performance efficiency [16]. The Indian healthcare industry is growing at a tremendous pace due to its strengthening coverage, services and increasing expenditure by public as well as private players. The Indian hospital sector is poised to grow to US$ 280 billion by 2020 [17]. Despite India being an IT-enabled services behemoth, the use of HIT is very restricted in the country. Huge private sector investments in HIT are on the increase [18, 19] which includes big pharmaceutical companies, corporate hospitals and other private health sector institutions, while the public healthcare sector is lagging way behind in IT utilization. To bring a paradigm shift in the healthcare dynamics in the country, the public healthcare sector is zealously pursuing implementation of information technology tools in the country. The Indian government has initiated a dreams project, namely the “National Optic Fibre Network (NOFN)” – enabling broadband connectivity to 250 000 panchayats; “Digital India” – envisaging transformation of India into a digitally empowered society and knowledge economy by adopting technology for poverty reduction, curtailing healthcare cost burden and provision of quality healthcare services; and “building Smart cites” – enabling the use of digital technologies or ICTs to enhance quality and performance of urban services, including e-health, to reduce costs and resource consumption and to engage more effectively and actively with its citizens [2024]. As a part of the project, it has rolled out its strategy in enabling widespread implementation and adoption of HIT through electronic medical records (EMRs), telemedicine, online medical consultation and medicine supply and m-health initiatives [23, 24].

Adoption of technology is known not only to reduce medical errors, decrease work load and increase patient care and safety [25, 26] besides increasing complexity and initial work load at the same time [27]. It has been demonstrated in several instances that it may have a positive influence on the recruitment and retention of healthcare professionals in rural and remote regions [2831] where technologies like tele-health and videoconferencing are in practice. There are also reports indicating that ICT has no effects on retention [32, 33]. Retention studies related to ICTs in urban areas are few. Gagnon et al [34] in a systematic review article have explored these aspects and have highlighted the necessity of further studies exploring the dynamics between retention and various personal, professional, educational and organizational factors. Many HIT implementations have failed as they majorly focus on solving clinical problems and simplifying the administrative processes instead of echoing the needs of the end users of the applications [35, 36]. The perceptions of benefits and adverse effects of adopting technology in healthcare are linked to the acceptance of the technology by healthcare professionals, their intention and eagerness to adopt them in their work culture. Hence, the factors that can affect the acceptance of technology are required to be explored initially, before developing a plausible retention strategy.

This manuscript is based on the study carried out in the urban areas of northern and central parts of India, to explore the possibility of using HIT implementation as one of the probable strategies to reduce retention. The approach adopted is that turnover (attrition) among healthcare professionals is influenced by two dominant variables, the JS felt by the healthcare professionals and their intention to stay (ITS) in the job. JS is the degree to which individuals like (satisfaction) or dislike (dissatisfaction) their job [37, 38]. It indicates the attitudinal component of the attrition. “Intention to stay” is indicative of the decisional aspect and reflects the keenness or interest of the employees to continue in the organization. It is assumed that attitude influences the decision taken by the professionals which results in turnover. The resulting turnover is the actual behavioural process. These components can be best understood by focusing on the interrelated facets or dimensions that in turn influence them.

In a recent unpublished study exploring the HIT landscape among hospitals in the capital of Delhi, it was identified that though nearly 80 % of corporate hospitals and public hospitals have adopted use of technology as part of daily work practices [39], it has been adopted to a minimal level to none among small (less than 100 beds) and medium hospitals (less than 300 beds). Due to migration of the rural population to urban and semi-urban areas in search of livelihood, lack of basic facilities, infrastructure and trained professionals in the rural areas, there is an increased footfall of patients in urban areas. There are reports from urban hospitals indicating high attrition among their physicians and nurses and various strategies being adopted for their retention by the management [40, 41]. In line with this, the present study explored whether the need of HIT application and its availability were indicated as one of the factors of JS and ITS, respectively. Further, it was probed whether the lack of availability of HIT applications was indicated by the professionals to be one of the reasons for shifting jobs. The research questions asked in the study were, “What are the major factors affecting JS and ITS among healthcare professionals in urban settings?”, “Does availability of HIT applications affect JS and ITS?”, “Can implementation of HIT be suggested to be a adopted as a probable retention strategy?” and “What is the technology acceptance among healthcare professionals?” The main focus was to identify the factors affecting job satisfaction and intention to stay and explore whether HIT can be suggested as one among those factors affecting JS and ITS. Hence, the current study targeted small-to-medium hospitals to study the influence of HIT implementation for retention.

Methods

Study design and settings

The study design adopted was descriptive using cross-sectional data collected from public and private hospitals in the urban locations of northern and central parts of India. All the hospitals, multi-speciality nursing homes in and around major cities with a minimum 50 beds and providing tertiary services, were invited to participate in the survey. It was presumed that huge patient inflow would necessitate employing a large number of healthcare professionals, thereby being an ideal platform for studying factors affecting attrition among healthcare professionals. Since the objective of the study was to check if availability and implementation of HIT could be used as one of the strategies for reducing attrition among healthcare professionals, implementation of health information systems (HISs), EMR, etc. was not considered as mandatory criteria for participation of hospitals in the survey. From the list of 36 hospitals who agreed to participate in the study, 20 hospitals were randomly selected. Each hospital was provided a unique ID which was fed into a computer-generated algorithm for the final selection of 10 private and 10 public hospitals. HIS and EMR were available in 13 of the selected hospitals.

Study participants

The respondents selected were doctors, nurses and administrators, and their selection criteria were based on their Indian resident status, valid registration licence to practise, minimum 1 year of working in the current organization and work experience of minimum 3 years in the industry. This target group was proposed after discussions with experts in the field and also based on a quick scan of the hospitals to identify the frequent and large-scale users of HIT. Pharmacists, lab technicians and paramedics are not included in the current paper.

All the doctors, nurses and administrators who satisfied the selection criteria mentioned earlier were requested to participate in the survey after obtaining approval from the concerned authorities. Finally, 982 respondents were found eligible for the survey.

Survey instrument

The structured questionnaire was administered to the respondents through direct interaction and through email, assuring confidentiality and anonymity. Filled questionnaires with missing, ambiguous or incomplete responses were not considered for analysis. The entire questionnaire (semi-structured) was designed based on the tools already available for determining job satisfaction, intention to stay [4245] and HIT technology acceptance [46, 47] and entailed close-ended questions. It was divided into six sections: demographic information, assessment of JS, assessment of ITS in the organization, reasons for leaving earlier job, future plan related to their current job and assessment of technology acceptance in work place. Pre-testing was done with an aim to check the format, language, sequence and comprehension of the questions. It was carried out in two hospitals (one public and one private) within the National Capital Region (NCR) region of Delhi. From both the organizations, respondents were selected with an equal mix of experience, gender, seniority and target group to validate the instrument under the discretion of hospital authority. Incorporating their feedback, the survey instrument was finally modified to have the following number of questions: 7 questions covering demographic and categorical variables (gender, education, marital status, total years of experience, duration of stay in the current organization, type of the organization (public and private), income), 13 questions covering dimensions of JS, 11 questions covering dimensions of ITS and 5 questions covering attributes related to the healthcare professional’s acceptance of technology (knowledge and awareness, existing practice, intent to use, perceived benefits and attitude towards use of HIT in work). Respondents who had changed jobs within the past 1 year of the survey were provided with a list of reasons that generally instigates a healthcare professional to shift the job and were asked to choose the most probable reasons according to their perspective. Similarly, all respondents were questioned whether they were planning to shift jobs within 12 months, and if so, they were asked to list the reasons that are instigating them to do so.

The tool for JS and ITS used was a five-point Likert scale for rating, and the reliability scale of these parts of the tool were 0.84 (Cronbach’s alpha). A seven-point Likert scale was used to measure the individual items contributing to HIT attributes, and the reliability scale of this part of the tool exceeded 0.78.

Some of the study questions were related to personal details of the respondents related to their attitude, behaviour, self-motivation and belief, and hence, it can be expected that the individual responses may depend upon their self-interests. As a case study, secondary data from exit interviews of healthcare professionals (sample size = 45) from one of the hospitals was reviewed. This helped the researchers to verify whether there were other reasons for shifting jobs than those listed in the survey questionnaire.

Data analysis

Data analysis was conducted using the Statistical Package for the Social Sciences (SPSS Inc., version 18.0, Chicago, IL, USA). The primary unit of analysis in this study was the type of healthcare employee (doctors, nurses and administrators). Bivariate analysis was used to compare responses from participants in each of the employer types, with both descriptive and inferential statistical methods. Chi-square and t-tests were conducted to detect levels of significance. The exploratory factor analysis (EFA) on rotated factor matrix using principal analysis factoring (PAF) with varimax rotation was performed to determine the factors independently influencing job satisfaction and intent to stay. The Kaiser-Meyer-Olkin (KMO) measure of sampling adequacy and Bartlett’s test of sphericity were used to assess the suitability of the respondent data for factor analysis [48]. Both scree test and Kaiser’s rule (eigenvalues > 1) were used to extract the number of factors. Individual items (questions) contributing to a particular factor were grouped based on a factor loading of 0.5 or greater. No single item contributed to more than one factor and each factor had minimum three items contributing to it. Once the factors were identified, the relationship between these factors and personal/demographic characteristics were probed via univariate (ANOVA) parametric tests. Where significant interaction effects were observed, the locus of these was determined via chi-square. A correlation coefficient (r) analysis was conducted to examine if the variables correlated with each other. Level of significance was set at a P value of ≤0.05. Path analysis was carried out using the open-source tool OpenStat V [49]. For determining the path model, the factors identified through EFA and the demographic variables were considered as exogenous variables similar to independent variables, and JS and ITS were considered as endogenous, similar to dependent or outcome variables. Exogenous variables represent those constructs that exert an influence on other constructs under study and are not influenced by other factors in the quantitative model. Those constructs identified as endogenous are affected by exogenous and other endogenous variables in the model [50].

Results

All the 982 participants who were found eligible as per the selection criteria to participate in the survey were provided the questionnaire to be completed. From the responses received, only 586 responses were found to be eligible for analyses. Table 1 highlights the demographics of the respondents. Men represented 57 % of the respondents. The age group most represented in the survey was 26 to 35 years of age. The maximum age of the respondents observed were 55 years of age. One third of the healthcare professionals had 5–10 years of working experience. The distribution of the respondents in respect to the nature of work was 45 % doctors, 35 % nurses and paramedics and remaining 20 % administrators. Most of the respondents were graduates (54.3 %). Nearly two thirds of the respondents were married and living as couple. Healthcare professionals with income in the range of 20K to 30K participated at a higher proportion. The proportion of respondents who participated from the private hospitals was greater (61 %) than public hospitals.

Table 1 Demographic detail of the respondents

The respondents were asked to rate themselves on the level of satisfaction they felt towards their job. Of the respondents, 76 % rated themselves to be overall satisfied with their job. Among the respondents, 18.7 % were planning to shift anytime within a year if opportunity arose and another 14.9 % within next 2 years. Nearly two thirds were doctors and the rest were nurses and administrators. Based on the self-rated satisfaction level and plan to shift jobs, the proportion of respondents actually dissatisfied with their job was recalculated to 49 %. The doctors were more dissatisfied than the nurses and administrators. The doctors working in private hospitals (37 %) were more dissatisfied than those working in public hospitals (nearly 20 %).

Based on factor analysis, 10 factors were identified as main contributors of JS out of the 13 dimensions surveyed (Table 2). They were compensation and perks, work–life balance, sense of accomplishment, imbalance of workload, need for automation technology, substandard nature of work, autonomy and security, relationship with peers, work satisfaction and organization influence. The respondents were much less satisfied with their salaries (50 %), work–life balance (38 %) and sense of accomplishment (26 %).

Table 2 Factor analysis values for job satisfaction

A multi-group path analysis was constructed to generate a model for overall JS (Fig. 1). Every path identified in this path analysis was statistically significant (P < 0.05). Based on the adjusted goodness of fitness index (AGFI = 0.905), comparative fit index (CFI = 0.910) and root mean square error of approximation (RMSEA = 0.048), a best fit model was selected. In this model, the identified factors that contributed to JS were considered as direct modulators. Based on the path coefficients (β), “sense of accomplishment” (β = 0.49) and “work–life balance” (β = 0.32) were the maximum contributors followed by “compensation and perks” (β = 0.25) and “need for technology” (β = 0.21). All the factors correlated well with JS and few among themselves. “Sense of accomplishment” had greater correlation with “work–life balance” (r = 0.66), with “work satisfaction” (r = 0.75), with “organization influence” (r = 0.78) and with “need for information technology” (r = 0.63). The three dimensions that did not contribute to factors of JS, that is, “pro-activeness”, “rapport with co-workers” and “job identification” correlated significantly with each other and with some of the direct modulators. They were the indirect modulators of JS. “Rapport with co-workers” correlated with direct modulators “relationship with peers” and “imbalanced work load” (r > 0.5 in both cases). “Job identification” correlated well with three direct modulators, “work satisfaction” (r = 0.41), “sense of accomplishment” (r = 0.34) and “security and autonomy” (r = 0.31). “Pro-activeness” was a single item, and its correlation to sense of accomplishment was r = 0.38.

Fig. 1
figure 1

Path model depicting the various modulators affecting both the outcome variables

Nine factors were extracted for ITS (factor loadings > 0.5) based on EFA (Table 3), which is indicative of the respondents’ motivation and commitment to the job. They were financial and non-financial rewards (grouped as hygiene and ambience factors), intrinsic motivation factors, professional identity (self-esteem, accomplishment), nature of job, organization effect, expansion and growth, rapport with co-workers, workplace objectives and relationship with peers. Among these, five factors, namely financial and non-financial rewards, professional identity nature of job, relationship with peers and co-workers, were also factors contributing to JS (Table 2).

Table 3 Factor analysis values for intention to stay

Path analysis was also performed to determine an individual model for ITS. Three items that did not contribute to factor analysis: “pro-activeness”, “clear personal objectives” and “social recognition”, were considered as indirect modulators. The rest were considered as direct modulators. Based on the initial model, AGFI = 0.78 with error variance 0.53 was obtained which indicated that there are still factors contributing to ITS other than those accounted. Hence, the model was recalculated by including both JS and demographic variables as direct modulators. This produced a path model with AGFI = 0.92, CFI = 0.90 and RMSEA = 0.45. The error variance was reduced to 0.28. While few variables like gender, age, workgroup type and organization type had negative correlation with ITS, income had a small positive correlation. Marital status and education did not contribute to path models. Among the direct modulators of ITS, “work place objectives” (β = 0.98) and “expansion and growth” (β = 0.69) were significant, followed by “hygiene and ambience factors” (β = 0.52), “nature of job” (β = 0.56) and “intrinsic motivation” (β = 0.57). Among the demographic variables, age seemed to be the significant contributor (β = 0.58). Among the direct modulators, the co-relation was higher (r > 0.35). Since the ITS path model contained factors that influenced JS, the final path model depicts an interlinked path model for both the outcome variables JS and ITS (Fig. 1).

The reasons perceived by the healthcare professionals for leaving their previous organization were sought on the basis that it would throw light on the factors that affect the JS and also could aid in developing retention strategy for the professionals. Nine reasons were opted by the respondents; they are heavy workload, non-cooperative boss, lack of incentives, absence of social security benefits, low-pay structure/compensation, lack of on-the-job training, frequent transfers, lack of new skill development and absence of technology in their work. Except frequent transfers and absence of social security, all other reasons were rated highly by the respondents. Similarly, respondents who were planning to leave the current organization were asked to provide the factors or reasons influencing their decision to migrate. They were as follows: opportunity to upgrade qualifications, skills and use of newer technologies, absence of amicable working environment, better remuneration, possibility of career advancement and social and professional recognition. Among the respondents who had shifted from their previous job within a year, nearly 51 % of the respondents indicated that the lack of HIT application was one of the reasons for shifting job. Nurses (63.5 %) provided this as a major reason compared to other respondents in greater proportion (Fig. 2). Nearly 33.6 % of healthcare professionals were planning to shift within next 2 years if there was an opportunity. One of the reasons provided by them was the lack of technology in their work environment to reduce their workload (Fig. 3).

Fig. 2
figure 2

Distribution of respondents who shifted within past 1 year

Fig. 3
figure 3

Distribution of respondents who are planning to shift within 2 years

Among the respondents, 81.7 % doctors, 76.8 % nurses and 71.2 % administrative staff had basic awareness of computers and their usage. From the survey, it could be identified that 79.8 % administrative staff, 33.3 % nurses and 37.2 % doctors utilized information technology for work via email, HIS, video conferencing, etc. Percentage of IT usage was higher among the age bracket of 26–35 years than other age groups. Doctors (41 %) felt the benefits of using technology more than nurses (38 %) and administrators (22 %). The mandatory need for HIT implementation for improving quality of services was reported by 45 % doctors, 31 % nurses and 25 % administrators. The existing practice of using HIT in the form of EMR, computerized physician order entry (CPOE), etc. were analysed only among the respondents (N = 371) in those hospitals where HIS and EMR have been implemented. Among them, the keenness (intent) to use technology and perceived realization of the benefits of using technology was less among doctors (39 %) when compared to nurses (46 %). Among the respondents from those hospitals where HIT was not yet implemented (N = 216), nearly 75 % of the administrators showed keen interest in using HIT for generating resource utilization reports, getting patient-related information, appointment and scheduling, asset management, etc. if made available. Correlation analysis among the factors affecting technology acceptance (Table 4) resulted in greater correlation between attitude and technology acceptance, ease of use and technology acceptance. Correlation analysis resulted in perceived benefits (r = 0.720) and attitude (r = 0.718) having higher correlation to acceptance of technology (Table 4). Similarly, perceived benefits were highly correlated with attitude (r = 0.667) and basic awareness of technology (r = 0.624). Basic awareness also influenced attitude (r = 0.512). All the respondents were queried on the necessity of providing training in basic technology and HIT applications (Fig. 4).

Table 4 Correlation values between various HIT attributes
Fig. 4
figure 4

Distribution of respondents against need for IT and HIT training

The review of the exit interviews (secondary data) identified that the overall causes for leaving the job as cited by the past employees in the forms were inadequate remuneration, increased workload due to understaffed employees and lack of professional advancement. Skewed ratings were observed for interpersonal relationships between superiors, peers and subordinates among doctors, nurses and administration. From the data, it could be observed that the reasons indicated for leaving jobs were higher education and specialization by graduate doctors and attractive salary packages and chance for super-specialization by postgraduate doctors. Although the implementation of HIS in the hospitals was lauded, it was not felt effective enough for their professional growth. Most of the nurses had mentioned in their exit interviews that they had work overload due to maintenance of many registers. Most of the doctors had stated in the interview that they were open to come back for serving in the hospital. The nurses and administration staff were less willing to come back even on a higher pay package.

Discussion

The Indian healthcare system is a mixture of both public and private hospitals with heavy out-of-pocket expenditure being more than 70 % [51]. The organization or working environment can have a profound effect on the quality and cost of the services provided [52]. So, it is imperative for organizations to understand the factors that enable their employees to achieve the highest level of JS. Though the majority of the participants had rated themselves as satisfied with their job (highly and moderately satisfied), many had indicated their plan to shift jobs within a year if opportunity arises. This indicates a deep-down dissatisfaction in the job and with their organization. Such dissatisfaction among health professionals is a cause for concern since JS is known to affect the overall efficiency, performance, absenteeism and turnover [53, 54].

In the current study, the doctors working in private hospitals were more dissatisfied than those working in public hospitals in spite of the higher salary packages and benefits. This might be due to the heavy work-load-related pressures. Overall, the results showed marked variation in levels of satisfaction from one dimension to another. Compensation and perks refers to the availability of incentives and extra financial benefits to the healthcare service workforce. There are reports that provide such examples where the use of provider incentives and enablers has known to increase the performance under certain conditions [55, 56]. Paying incentives to reduce attrition involves crafting proper incentives, developing indicators of activity to be measured, implementing them and monitoring the performances on a timely basis by the organization that may cause operational difficulties. While developing incentives, non-financial fringe benefits should also be considered [15].

Work–life balance was one among the factors affecting JS in the current study. There are earlier literature reports stating that low satisfaction of the employees with salaries, non-participation in decision making, routine mundane tasks and insufficient work–life balance can cause a decrease in JS [5759]. Work–life balance is about helping employees better manage their work and personal (non-work) time. This refers to family-friendly work arrangements and alternative work arrangements. It depends on the nature of the work and workplace and issues and policies prevailing in the workplace. Introducing strategies like flexible work options, specialized leave policies, paid maternal leave, paternal leave and home telecommuting can increase the satisfaction level of the healthcare professionals.

Hospitals in the urban areas cater to the nearby rural area too where there is a dearth of specialized services. Moreover, with public and private insurance agencies increasing their spectrum of services to cover many chronic diseases, there is a growing inflow of patients to both public and private hospitals in urban areas. All these have caused an increased work load to the healthcare professionals. Peer relationship was identified as another significant factor to JS. Nurse–physician relationships, disruptive physician behaviour and institutional responses to such behaviour, all have impact on nurses’ job satisfaction, morale and retention [60]. Although only a small percentage of healthcare professionals reported occurrence to exhibit disruptive behaviour, both physicians and nurses agreed that it influences nurses’ as well as other staff members’ attitudes towards patient care and inhibits teamwork affecting the efficiency, accuracy, safety and outcomes of care.

Sense of achievement and fulfilment was indicated as one of the factors contributing to JS in this study. This depends on the oneness felt by the employees with the organization and is influenced by their compatibility towards the organization’s mission, vision, goals and strategies. The work satisfaction felt by the health professional relates to the sense of role clarity and recognition given to the work. Morrison et al. [61] outlined several ways in which lack of engagement and high-turnover rates impact healthcare organizations. Some of these factors include turnover costs, which according to Waldman and Kelly [62] range between 3.4 % and 5.8 % of their operating budget. When employees feel dissatisfied and not recognized, they leave the organization and this puts higher workloads and stress levels on those who remain and ultimately is further driving down satisfaction for both employees and patients [63]. Employees’ needs and motivators vary, so it is important to understand what motivates them to perform [64, 65]. The conditions under which healthcare professionals work can have as much impact on their effectiveness, comfort and safety as the intrinsic details of the task itself.

Professional autonomy motivates employees to show commitment to their organization, enhancing work conditions to support the organization’s mission and thus impacting on JS [66]. Similarly, organizational support improves work satisfaction and diminishes the turnover rate among physicians [67]. Numerous studies conducted among healthcare professionals point to the importance of the interpersonal relationships in JS [68] and that it is likely to increase the client safety, improved quality of care and greater client satisfaction. But in the current study, the contribution of interpersonal relationships does not contribute as a direct modulator of JS. We believe it must be due to the fact that given the work load and busy nature of the professionals due importance has not been given to this question by the respondents.

A healthcare professional’s ITS is affected by the interplay of complex factors at the organizational, managerial and personnel level. In a number of earlier research findings, most of the variance of ITS was consistently explained by JS [69, 70]. The path model identified that the JS dimensions, financial and non-financial rewards, professional identity, nature of job and relationship with peers and co-workers, affect ITS also. At the personal level, remuneration is a critical factor of motivation and retention [71]. A high proportion of healthcare professionals particularly from public hospitals feel that their remuneration is not fair. Opportunities for promotion or career growth, self-esteem and accomplishment are other key dimensions of ITS [72]. Socio-demographic factors like gender, age, education, organization type and experience have been known to have influence on ITS [73]. In the current study, gender, education and organization type affected ITS. Females were likely to pursue for longer duration than males. The graduates were keen on continuing compared to postgraduate professionals. This may be due to the fact that the latter were more oriented towards better remuneration, professional identity and expansion and career growth. Expansion and career growth indicated learning newer skills like use of HIT, promotion and shifting to newer domain areas. Such influences have been reported earlier in studies related to nurses [71, 74].

We also found that healthcare professionals’ assessment of the adequacy of their support from their organization influenced their intention to remain employed [75]. Organization support, its culture, values and beliefs, affects a healthcare professional’s oneness with the organization. This depends upon the extent to which the organization is able to convey to the healthcare professional a sense that he/she is a valued employee through its words and actions. Working professionals remain dissatisfied with their organization if they feel they are not getting adequate support from the management [76].

Need for HIT implementation was indicated as one of the factors affecting JS. Similarly, the availability of HIT was highlighted as the factor affecting their ITS. Most of the respondents irrespective of gender, age and education felt that implementation of health information technology in day-to-day work life was necessary. Many respondents who were surveyed felt that use of technology will provide skill enhancement and keep them abreast with the newer developments in the industry. It is believed that HIT applications like HIS and EMR help to improve efficiencies and bring in innovations in work, reduce workload and can increase their quality performance. In concordance with this opinion, it could be seen that one of the reasons provided by the professionals planning to leave the organization was the lack of technology in their work. The healthcare industry is increasingly influenced by information technology, be it use of sophisticated medical devices, communication devices (mobiles, smart phones), telemedicine or longitudinal patient record maintenance through EMRs and clinical decision systems [7781]. It is known to help professionals to confidently and securely access, interpret, apply organizational knowledge, patient care procedures, best practices and other skills in a manner that improves patient satisfaction, achieves positive clinical outcomes and maximizes the cost savings for the organization [25, 26].

The nature of work done by respondents (doctors, nurses and administrators) seems to play a significant role in expressing the lack of automation and technology as one of the major factors of attrition. Among the healthcare professionals surveyed, doctors though aware of the benefits of HIT, particularly to patient safety and performance improvement, surprisingly preferred using HIT personally to a lesser extent in their work. On further probing, it was brought to light that it was difficult for them to work with the complex HIT applications especially when they have a busy schedule. But, they felt that technology was much needed in their work and were open to use the help of their juniors or assistants for handling technology. The nurses and administrators were more open to use the technology. But many nurses indicated that dual work of maintaining records both through HIT application and paper increases their workload and hence the slight opposition to large-scale adoption of technology.

Basic awareness and knowledge about HIT applications influenced the benefits perceived by the professionals on using the applications and also their attitude towards acceptance of technology. Once HIT was implemented and the professionals gained an awareness regarding the HIT applications and their benefits, it was their attitude towards technology and the ease of use of the applications that seem to affect the overall technology acceptance. It is well-known that education and training opportunities have strong motivating effects [82, 83]. Training enables workers to take on more demanding duties and to achieve personal goals of professional advancement [84] as well as allow them to cope better with the requirements of their job and are especially important for young health professionals [85]. The need for upgrading skills and use of technologies as a path to career advancement was highlighted to be significant by the respondents. The doctors and nurses were inclined to undergo training if provided compared to the administrators. This might be due to the fact that the former use HIS and EMR for updating the patient data. These applications are complex, and the users need to be trained to use them effectively. Administrators are mostly involved in report generation to a greater extent. These are already provided as readymade templates and are much easier to be worked upon.

Limitations

Many of the potential participants (nearly 15 %) did not complete the survey due to sudden shifting of jobs or long leaves of absence from work. Some of the senior physicians were not eager to share their personal details like income and their intent to use HIT and gave reasons of busy schedule for not completing the survey. There were ambiguous filling of questionnaire, that is, more than one option was selected for a given item by few respondents (nearly 5 %). These constraints could be seen in the survey conducted mostly through email and to a lesser amount in direct interview. All these resulted in only 60 % of responses being finally found eligible for data analysis.

Given the sampling procedure adopted, as well as the final small-sample size, the results obtained are not claimed to be representative for the entire health workforce of a country. Also, not all hospitals where the survey was conducted had HIT implementation. Hence, it was difficult to explore the linkage between implementation of HIT and job satisfaction in all hospitals.

Despite these limitations and considering the fact that there is a paucity of published evidence relating HIT and retention in India, this study can be used to explore if HIT implementation can be used as a strategy for retention. It would provide some baseline data for future comparison and may trigger an initiative of looking into use of information technology as a possible factor for job satisfaction and retention of healthcare providers.

Conclusions

The healthcare sector is witnessing the highest attrition rates making retention of critical manpower resources a key challenge. Any effort to strengthen healthcare service quality must concentrate on building and promoting the professional culture of healthcare professionals and should create a conducive environment for working that meets both professional and organization goals. This will increase the job satisfaction, commitment of the professionals towards their organization and promote their intention to stay. The healthcare industry is increasingly influenced by the use of information technology in various forms from record maintenance to patient monitoring, communication and treatments. They can enable healthcare professionals to confidently access, interpret and apply organizational knowledge, patient care procedures, best practices and other skills in a manner that improves patient satisfaction, achieves positive clinical outcomes and maximizes cost savings for the organization. HIT is viewed by healthcare professionals to promote professional ethos and commitment and to strengthen their perception of self-efficacy. But, they cannot compensate for many other factors prevalent at both the macro and micro level, which seriously impinge staff retention, such as staff and supply shortages, difficult working conditions and migration pull factors originating from developed countries. We suggest the following can be utilized as potential strategies that utilize HIT as a component to increase retention among healthcare professionals as illustrated in Fig. 5.

Fig. 5
figure 5

Strategy using HIT for increased retention

  • Healthcare professionals based upon the education, experience and skill set should be assigned a role and allocated individual responsibilities that satisfy their pre-hire expectations in accordance with the industry standards and organizational policies.

  • After hiring, a part of orientation training related to the use of HIT applications needs to be provided at levels appropriate to the work requirement.

  • This should be backed with a periodic appraisal of the work, improvement in salaries and benefits and upgradation of knowledge and skills.

  • When HIT is being adopted for the first time in the organization or changes brought to the existing technology, healthcare professionals should be made aware of management’s objectives for adopting the technology, its benefits to the professional’s work life, patient care and expectations of the management from the staff in using the technology.

  • Implementation of HIT applications and using it as a part of the retention strategy will be successful only if the healthcare professionals are open and ready to accept technology in their work environment. Involving the healthcare professionals like doctors or nurses during the designing and implementation will boost the morale of the professionals and give an impetus to adopt easily. A champion among the healthcare professionals who will act as an evangelist among the peers and colleagues will help in bringing about the transformation smoothly.

  • HIT implementation should also be used for providing a continuous teaching and learning environment to upgrade knowledge, for discussion with peers and colleagues and as a media for maintaining the communication with patients other than for administrative and performance goals.

Using HIT in a fashion to produce a relatively mild change in the workflow that results in improvement in the service experienced by the patients would hardly be constituted as a disruptive threat to the existing organizational culture by the healthcare professionals. The changes brought about should be a precursor for continual evolution of improvement. This can happen only if implementation of HIT is brought about as a collaborative process and not driven by one cohort or group. In conclusion, we suggest that HIT can be integrated with other retention strategies adopted by the organization to reduce turnover and increase retention.

References

  1. Buchan J. The ‘greying’ of the United Kingdom nursing workforce: implications for employment policy and practice. J Adv Nurs. 1999;30(4):818.

    Article  CAS  PubMed  Google Scholar 

  2. Leurer MD, Donnelly G, Domm E. Nurse retention strategies: advice from experienced registered nurses. J Health Org Manage. 2007;21(3):307–19.

    Article  Google Scholar 

  3. Acker GM. The effects of organizational conditions (role conflict, role ambiguity, opportunities for professional development, and social support) on job satisfaction and intention to leave among social workers in mental health care. Community Ment Health J. 2004;40:65–73.

    Article  PubMed  Google Scholar 

  4. WHO - Global health workforce shortage to reach 12.9 million in coming decades, News Release, November 11, 2003 http://www.who.int/mediacentre/news/releases/2013/health-workforce-shortage/en/, downloaded on 3/20/2015.

  5. Aiken L, Clarke S, Sloane D. Hospital staffing, organization and quality of care: cross national findings. Int J Qual Health Care. 2002;14(1):5–13.

    Article  PubMed  Google Scholar 

  6. Aiken L, Clarke S Sloane D, Shilber J. Hospital nurse staffing, patient mortality, nurse burnout and job dissatisfaction. Journal of American Medical Association 2002, 288(16):1987–93.

  7. Borrill CS, Carletta J, Carter AJ, Dawson JF, Garrod S, Rees A, et al., The effectiveness of health care teams in the national health services, Aston Centre for Health Service Organization Research, Birmingham, UK, 2001

  8. Lu H, While AE, Barriball KL. A model of job satisfaction of nurses: a reflection of nurses’ working lives in Mainland China. J Adv Nurs. 2007;58(5):468–79.

    Article  PubMed  Google Scholar 

  9. pwc report- The World in 2050 -will the shift in global economic power continue? Feb 2015, http://www.pwc.com/gx/en/issues/the-economy/assets/world-in-2050-february-2015.pdf- downloaded on 3/20/2015

  10. Dhawan A, 2015 Healthcare Outlook India, Deloitte Report, http://www2.deloitte.com/content/dam/Deloitte/global/Documents/Life-Sciences-Health-Care/gx-lshc-2015-health-care-outlook-india.pdf, downloaded on 3/20/2015

  11. Fortis Healthcare Ltd – Annual Report, March 2014 - http://www.fortishealthcare.com/pdf/Fortis_AR_2013-14.pdf

  12. Stilwell B, Diallo K, Zurn P, Vujicic M, Adams O, Dal Poz M. Migration of health-care workers from developing countries: strategic approaches to its management. Bull World Health Org. 2004;82(8):601.

    Google Scholar 

  13. Wuliji T, Carter S, Bates I. Migration as a form of workforce attrition: a nine-country study of pharmacists. Hum Resour Health. 2009;7:1–32.

    Article  Google Scholar 

  14. Hagopian A, Thompson MJ, Fordyce M, Johnson KE, Hart LG. The migration of physicians from sub-Saharan Africa to the United States of America: measures of the African brain drain. Hum Resour Health. 2004;2:17.

    Article  PubMed  PubMed Central  Google Scholar 

  15. Mathauer I, Imhoff I. Health worker motivation in Africa: the role of non-financial incentives and human resource management tools. Hum Resour Health. 2006;4:24.

    Article  PubMed  PubMed Central  Google Scholar 

  16. Blumenthal D, Glaser JP. Information technology comes to medicine. N Engl J Med. 2007;356:2527–34.

    Article  CAS  PubMed  Google Scholar 

  17. Healthcare industry in India. 2014, http://www.ibef.org/industry/healthcare-india.aspx downloaded on 22/3/2015.

  18. Khandhar M, Singh A. Health management information system (HMIS). Chapter 2:248-256. In Compendium of E-governance: Initiatives in India, (eds) P. Gupta and R. K. Bagga, University Press, 2008.

  19. Jagirdhar K, Srishti Software - Jayadeva Hospital HMIS - case study, http://blogs.siliconindia.com/ Last accessed on April 19, 2011

  20. Rao SS. Social development in Indian rural communities: adoption of telecentres. Int J Inf Manag. 2008;28(6):474–82.

    Article  Google Scholar 

  21. Madon S, Sahay S, Sudan R. E-government policy and health information systems implementation in Andhra Pradesh, India: need for articulation of linkages between the macro and the micro. Inf Soc. 2007;23(5):327–44.

    Article  Google Scholar 

  22. Kumar R, Best ML. Impact and sustainability of e-government services in developing countries: lessons learned from Tamil Nadu. India Inform Soc. 2006;22(1):1–12.

    Article  Google Scholar 

  23. Recommendations for EMR / EHR standards for India -MohFW – Aug 2013, [http://mohfw.nic.in/showfile.php?lid=1672].

  24. Meta data and data standards draft report (MDDS), MOHFW – meta standards, [http://mohfw.gov.in/index1.php?lang=1&level=2&sublinkid=3137&lid=2378]

  25. Alvarado CJ, Carayon P, Ann Schoofs Hundt, Reducing workload and increasing patient safety through work and workspace design, CQPI Technical Report No. 185; 2003.

  26. McGinn C, Grenier S, Duplantie J, Shaw N, Sicotte C, Mathieu L, et al. Comparison of user groups’ perspectives of barriers and facilitators to implementing electronic health records: a systematic review. BMC Med. 2011;9:1–10.

    Article  Google Scholar 

  27. Heyworth L, Paquin AM, Clark J, Kamenker V, Stewart M, Martin T, et al. Engaging patients in medication reconciliation via a patient portal following hospital discharge. J Am Med Inform Assoc. 2014;21:e157–62.

    Article  PubMed  Google Scholar 

  28. Watanabe M, Jennett P, Watson M. The effect of information technology on the physician workforce and health care in isolated communities: the Canadian picture. J Telemed Telecare. 1999;5 Suppl 2:S11–9.

    Article  PubMed  Google Scholar 

  29. Jennett PA, Watson MM, Watanabe M. The potential effects of telehealth on the Canadian health workforce: where is the evidence? Cyberpsychol Behav. 2000;3:917–24.

    Article  Google Scholar 

  30. Jin C, Ishikawa A, Sengoku Y, Ohyanagi T. A telehealth project for supporting an isolated physiotherapist in a rural community of Hokkaido. J Telemed Telecare. 2000;6 Suppl 2:S35–7.

    Article  PubMed  Google Scholar 

  31. Brebner EM, Brebner JA, Ruddick-Bracken H, Wootton R, Ferguson J, Palombo A, et al. Evaluation of an accident and emergency teleconsultation service for north-east Scotland. J Telemed Telecare. 2004;10:16–20.

    Article  CAS  PubMed  Google Scholar 

  32. Reiner B, Siegel E, Carrino JA, McElveny C. SCAR radiologic technologist survey: analysis of technologist workforce and staffing. J Digit Imaging. 2002;15:121–31.

    Article  PubMed  PubMed Central  Google Scholar 

  33. Meyer D. Technology, job satisfaction, and retention: rural mental health practitioners. J Rural Health. 2006;22:158–63.

    Article  PubMed  Google Scholar 

  34. Gagnon MG, Trepanier A, Apho Ly B. Supporting health professionals through information and communication technologies: a systematic review of the effects of information and communication technologies on recruitment and retention. Telemed e-Health. 2011;4:17.

    Google Scholar 

  35. Hammid F, Cline TW, Providers’ acceptance factors and their perceived barriers to electronic health record (EHR) adoption, Online Journal of Nursing Informatics 2013, 17 (3).

  36. Kaplan B, Harris-Salamone KD. Health IT success and failure: recommendations from literature and an AMIA workshop. J Am Med Inform Assoc. 2009;16(3):291–9.

    Article  PubMed  PubMed Central  Google Scholar 

  37. Schermerhorn JR. Organizational behavior 7th edition. New York: Wiley; 2000.

    Google Scholar 

  38. Spector PE. Advanced topics in organization behavior: job satisfaction: application, assessment, causes, and consequences. Thousand Oaks, CA: Sage; 1997.

    Google Scholar 

  39. Patni S. Exploring HIT landscape among hospitals in NCR. Post graduate diploma dissertation. Delhi, AICTE, India: International Institute of Health Management Research; 2012.

    Google Scholar 

  40. Rawal CN, Pardeshi SA, Effects Of Job Stress On Work Behaviour Amongst Nurses In Selected Public And Private Hospitals At Pune. IOSR Journal of Nursing and Health Science (IOSR-JNHS). 3(2):42-47.

  41. Vij S, Dealing with attrition. Express Healthcare. 2010. www.expresshealthcare.in

  42. Mowday RT, Steers R, Porter L. The measurement of organizational commitment. J Vocat Behav. 1979;14:224–7.

    Article  Google Scholar 

  43. Vroom VH. Work and motivation. New York: John Wiley and Sons; 1964.

    Google Scholar 

  44. Aiken J, Hage M. Organizational alienation: a comparative analysis. Am Sociol Rev. 1996;31:497–507.

    Article  Google Scholar 

  45. Hackman JR, Oldham GR. Development of the job diagnostic survey. J Appl Psychol. 1975;60:159–70.

    Article  Google Scholar 

  46. Menon M, Lee B, Eldenburg L. Productivity of information systems in the health care industry. Inf Syst Res. 2000;11(1):83–92.

    Article  Google Scholar 

  47. Walter Z, Lopez MS. Physician acceptance of information technology: role of perceived threat to professional autonomy. Decision Supp Syst. 2008;46:206–15.

    Article  Google Scholar 

  48. Plichta SB, Kelvin E, Path Analysis, Chap 16 In Munro's Statistical methods for healthcare research 2005, Lippincot Williams & Wilkins.

  49. Miller B, Free statistics programs and materials, statpages.info/miller/OpenStatMain.htm

  50. Path analysis- statistics solutions, www.statisticssolutions.com/factor-analysis-sem-path-analysis.htm

  51. Bhojani U, Thriveni BS, Devadasan R, Munegowda CM, Devadasan N, Kolsteren P, et al. Out-of-pocket healthcare payments on chronic conditions impoverish urban poor in Bangalore, India. BMC Public Health. 2012;12:990.

    Article  PubMed  PubMed Central  Google Scholar 

  52. Leshabari MT, Muhondwa EP, Mwangu MA, Mbembati NA. Motivation of health care workers in Tanzania: a case study of Muhimbili National Hospital. East Afr J Public Health. 2008;5(1):32–7.

    PubMed  Google Scholar 

  53. Mosadeghrad AM, Ferlie E, Rosenberg D. A study of relationship between job satisfaction, organisational commitment and turnover intention among hospital employees. Health Serv Manag Res. 2008;21(4):211–27.

    Article  Google Scholar 

  54. Ingersoll G, Olsan T, Drew-Cates J, DeVinnery BC, Davies J. Nurses’ job satisfaction, organizational commitment, and career intent. J Nurs Adm. 2002;32(5):250–63.

    Article  PubMed  Google Scholar 

  55. Willis-Shattuck M, Bidwell P, Thomas S, Wyness L, Blaauw D, Ditlopo P. Motivation and retention of health workers in developing countries: a systematic review. BMC Health Serv Res. 2008;8:247.

    Article  PubMed  PubMed Central  Google Scholar 

  56. Agyepong IA, Anafi P, Asiamah E, Ansah EK, Ashon DA, Narh-Dometey C. Health worker (internal customer) satisfaction and motivation in the public sector in Ghana. Int J Health Plan Manage. 2004;19(4):319–36.

    Article  Google Scholar 

  57. Newman K, Maylor, Uvanney, Chansarkar B. The nurse retention, quality of care and patient satisfaction chain. Int J Health Care Qual Assur. 2001;14(2):57–64.

    Article  CAS  Google Scholar 

  58. Tim Newton J, Naidu R, Ayers K. A comparison of career satisfaction amongst dental healthcare professionals across three health care systems: comparison of data from the United Kingdom, New Zealand and Trinidad & Tobago. BMC Health Serv Res. 2006;6:32.

    Article  PubMed  PubMed Central  Google Scholar 

  59. Kivimäki M, Vanhala A, Pentti J, Länsisalmi H, Virtanen M, Elovainio M, et al. Team climate, intention to leave and turnover among hospital employees: prospective cohort study. BMC Health Serv Res. 2007;7:170.

    Article  PubMed  PubMed Central  Google Scholar 

  60. Rosenstein AH. Disruptive behavior and clinical outcomes: perceptions of nurses and physicians. Am J Nurs. 2005;105(1):54–64.

    Article  PubMed  Google Scholar 

  61. Morrison EE, Burke III GC, Greene L. Meaning in motivation: does your organization need an inner life? J Health Hum Serv Adm. 2007;30(1):98–115.

    PubMed  Google Scholar 

  62. Waldman JD, Kelly F, Arora S, Smith H. The shocking cost of turnover in health care. Health Care Manag Rev. 2004;29(1):2–7.

    Article  Google Scholar 

  63. Fukuyama F. Trust: the social virtues and the creation of prosperity. New York: Free Press; 1975.

    Google Scholar 

  64. Bajwa SJS, Virdi SS, Bajwa SK, Ghai GK, Singh K, Rana CS, et al. In depth analysis of motivational factors at work in the health industry. Ind Psychiatry J. 2010;19(1):20–9.

    Article  PubMed  PubMed Central  Google Scholar 

  65. Mullins S. Management and organizational behavior. 5th ed. London: Financial Times/Pittman Publishing; 1999.

    Google Scholar 

  66. Tsai Y, Relationship between organizational culture, leadership behavior and job satisfaction. BMC Health Services Research 2011, 11(98) doi:10.1186/1472-6963-11-98.

  67. Von Vultee PJ, Axelsson R, Arnetz B. The impact of organisational settings on physician wellbeing. Int J Health Care Qual Assur. 2007;20(6):506–15.

    Article  Google Scholar 

  68. Wada K, Arimatsu M, Higashi T, Yoshikawa T, Oda S, Taniguchi H, et al. Physician job satisfaction and working conditions in Japan. J Occup Health. 2009;51(3):261–6.

    Article  PubMed  Google Scholar 

  69. Brewer CS, Kovner CT, Greene W, Tukov-Shuser M, Djukic M. Predictors of actual turnover in a national sample of newly licensed registered nurses employed in hospitals. J Adv Nurs. 2012;68(3):521–38.

    Article  PubMed  Google Scholar 

  70. Wang L, Tao H, Ellenbecker CH, Liu X. Job satisfaction, occupational commitment and intent to stay among Chinese nurses: a cross-sectional questionnaire survey. J Adv Nurs. 2012;68(3):539–49.

    Article  PubMed  Google Scholar 

  71. Ojakaa D, Olango S, Jarvis J. Factors affecting motivation and retention of primary health care workers in three disparate regions in Kenya. Hum Resourc Health. 2014;2:33.

    Article  Google Scholar 

  72. Sourdis J. Predictors of nurses’ intent to stay at work in a university health center. Nurs Health Sci. 2004;6:59–68.

    Article  Google Scholar 

  73. Tourangeau AE, Cranley LA. Nursing intention to remain employed: understanding and strengthening determinants. J Adv Nurs. 2006;55(4):497–509.

    Article  PubMed  Google Scholar 

  74. Ayers K, Creating a responsible workplace. Hum Resour Mag 2000;50(2). http://www.shrm.org/Publications/hrmagazine/PastIssues/2005/Pages/200502.aspx

  75. Ayers K, Creating a responsible workplace. Hum Resour Mag 2000, 50(2).

  76. Kumar R, Ahmed J, Shaikh BT, Hafeez R, Hafeez A. Job satisfaction among public health professionals working in public sector: a cross sectional study from Pakistan. Hum Resour Health. 2013;11:2.

    Article  PubMed  PubMed Central  Google Scholar 

  77. DeRenzi B, Borriello G, Jackson J, Kumar VS, Parikh TS, Virk P, et al. Mobile phone tools for field-based health care workers in low-income countries. Mt Sinai J Med. 2011;78:406–18.

    Article  PubMed  Google Scholar 

  78. Gow GA, Waidyanatha N, Mary VP, Using mobile phones in a real-time biosurveillance program: lessons from the frontlines in Sri Lanka and India. IEEE International Symposium on Technology and Society (ISTAS), 366 – 374, 2010

  79. Bostock Y, Hanley J, McGown D, Pinnock H, Padfield P, McKinstry B. The acceptability to patients and professionals of remote blood pressure monitoring using mobile phones. Prim Health Care Res Dev. 2009;10:299–308.

    Article  Google Scholar 

  80. Celi LA, Sarmenta L, Rotberg J, Marcelo A, Clifford G. Mobile care (Moca) for remote diagnosis and screening. J Health Inform Dev Ctries. 2009;3(1):17–21.

    PubMed  PubMed Central  Google Scholar 

  81. Arsand E, Froisland DH, Skrovseth SO, Chomutare T, Tatara N, Tufano JT, Hartvigsan G, Mobile phone-based self management tools for type 2 diabetes: The few touch application. Journal of Diabetes Science and Technology 2012;6(5):1197–1206..

  82. Chikanda A. Nurse migration from Zimbabwe: analysis of recent trends and impacts. Nurs Inq. 2005;12(3):162–74.

    Article  PubMed  Google Scholar 

  83. Manongi R, Marchant T, Bygbjerg IC. Improving motivation among primary health care workers in Tanzania: a health worker perspective. Hum Resour Health. 2006;4(1):6.

    Article  PubMed  PubMed Central  Google Scholar 

  84. Chimwaza W, Chipeta E, Ngwira A, Kamwendo F, Taulo F, Bradley S, McAuliffe E, What makes staff consider leaving the health service in Malawi?. Hum Resour Health. 2014;12:17.

    Article  PubMed  PubMed Central  Google Scholar 

  85. Reid S. Monitoring the effect of the new rural allowance for health professionals. Durban Health Syst Trust. 2004;1–7.

Download references

Acknowledgements

This study is part of the doctorate research work submitted by Indrajit Bhattacharya to Birla Institute of Technology (BIT), Ranchi. Indrajit Bhattacharya acknowledges Dr. Vinay Nangia, Department of Management Studies, Indian Institute of Technology (IIT), Roorkee, Uttarakhand, India; Dr. B.S.Nagi, former Director of Centre for Research and Social Development, New Delhi; and Dr. R.K.Suri and Dr.B.K.Jha from BIT for their valuable guidance in the study. Indrajit Bhattacharya would like to thank International Institute of Health Management Research (IIHMR), New Delhi (past affiliation), to conduct the study and acknowledges the Centre for Health Informatics (CHI) of National Institute of Health and Family Welfare (NIHFW), New Delhi (current affiliation), for the administrative support in the study. Anandhi Ramachandran acknowledges IIHMR for allowing her to work on the study.

Author information

Authors and Affiliations

Authors

Corresponding author

Correspondence to Indrajit Bhattacharya.

Additional information

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

IB was involved in conceptualizing the study design, formulation of questionnaire and circulation, acquisition of data, conducting of interviews, gathering and collating the replies and drafting of manuscript. AR made contributions in design, analysis and interpretation of data. IB and AR both have equally been involved in drafting the manuscript, revising it critically for important intellectual content and have given final approval of the version to be published. They agree to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work. All authors read and approved the final manuscript.

Rights and permissions

This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.

Reprints and permissions

About this article

Check for updates. Verify currency and authenticity via CrossMark

Cite this article

Bhattacharya, I., Ramachandran, A. A path analysis study of retention of healthcare professionals in urban India using health information technology. Hum Resour Health 13, 65 (2015). https://doi.org/10.1186/s12960-015-0055-x

Download citation

  • Received:

  • Accepted:

  • Published:

  • DOI: https://doi.org/10.1186/s12960-015-0055-x

Keywords